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Literature DB >> 21231483

Gigantic maximum of nanoscale noncontact friction.

Kohta Saitoh¹, Kenichi Hayashi, Yoshiyuki Shibayama, Keiya Shirahama.

Abstract

We report measurements of noncontact friction between surfaces of NbSe2 and SrTiO3 and a sharp Pt-Ir tip that is oscillated laterally by a quartz tuning fork cantilever. At 4.2 K, the friction coefficients on both the metallic and insulating materials show a giant maximum at the tip-surface distance of several nanometers. The maximum is strongly correlated with an increase in the spring constant of the cantilever. These features can be understood phenomenologically by a distance-dependent relaxation mechanism with distributed time scales.

Year: 2010 PMID： 21231483 DOI： 10.1103/PhysRevLett.105.236103

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

4 in total

Gigantic maximum of nanoscale noncontact friction.

1. Giant frictional dissipation peaks and charge-density-wave slips at the NbSe2 surface.

2. Enhancement of Casimir Friction between Graphene-Covered Topological Insulator.

3. Mechanical dissipation from charge and spin transitions in oxygen-deficient SrTiO₃ surfaces.

Review 4. Recent highlights in nanoscale and mesoscale friction.

Gigantic maximum of nanoscale noncontact friction.

1. Giant frictional dissipation peaks and charge-density-wave slips at the NbSe2 surface.

2. Enhancement of Casimir Friction between Graphene-Covered Topological Insulator.

3. Mechanical dissipation from charge and spin transitions in oxygen-deficient SrTiO3 surfaces.

Review 4. Recent highlights in nanoscale and mesoscale friction.

3. Mechanical dissipation from charge and spin transitions in oxygen-deficient SrTiO₃ surfaces.